JP3468344B2 - Color picture tube - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color picture tube used as a television or a computer display. More specifically, the present invention relates to a shadow mask for controlling the arrival position of an electron beam emitted from an electron gun.

[0002]

2. Description of the Related Art Generally, as shown in FIG. 5, a color picture tube has a substantially rectangular face panel 2 having a phosphor screen surface 2a formed on its inner surface, and a face panel 2.
A funnel 3 connected to the rear of the funnel 3, an electron gun 5 built in a neck portion 3a of the funnel 3, a deflection yoke 6 provided on the outer peripheral surface of the funnel 3, and a face panel 2
And a shadow mask 7 provided inside the inside of the phosphor mask 2 facing the phosphor screen surface 2a.

The shadow mask 7 has a large number of through holes which are regularly arranged, and is emitted from the electron gun 5.
It plays a role of color selection for the electron beam 4 of the book. As the shadow mask, one that has been previously pressed into a predetermined curved shape (press mask, see FIG. 6A), one that uses a flat plate-shaped member as it is (flat mask, see FIG. 6B), or Used by bending a flat plate member along its long axis or short axis (cylindrical mask, see FIG. 6 (c)), or by stretching and welding a number of strip elements on a frame What to do (Japanese Patent Laid-Open No. 4-1
No. 63830) are known.

In recent color picture tubes, the face panel has been flattened from the viewpoint that external light is not reflected and the appearance is good. With the flattening of the face panel, the shadow mask is also flattening. Therefore, the through holes are displaced due to the thermal expansion of the shadow mask due to the absorption of the electron beams, and as a result, the so-called doming phenomenon occurs in which the electron beam passing through the through holes does not hit the phosphors correctly and uneven color is generated. The flatter the shadow mask, the greater the amount of thermal expansion of the shadow mask, and the problem of uneven color due to the doming phenomenon becomes more serious. For this reason, in a flat mask, a cylindrical mask, or the like, tension higher than the thermal expansion force due to the temperature rise of the shadow mask is applied in the direction of the arrow shown in FIGS. Even if it goes up, the mutual positions of the through holes of the shadow mask and the phosphor dots on the phosphor screen surface are not displaced.

[0005]

However, in the case of a tension mask such as a conventional flat mask or cylindrical mask, a sufficient tension is provided so that the electron beam does not move due to the doming of the shadow mask during operation. It is hung. Therefore, a heavy and strong mask supporting frame is required, which causes a problem of increasing the weight of the color picture tube itself.

On the other hand, in the case of a press mask, it is not possible to reduce the cost because a press die and a press machine are required to manufacture the press mask. The present invention has been made to solve the above problems in the prior art, and enables the use of a lightweight mask support frame, and provides a color picture tube capable of reducing the weight of the color picture tube, An object of the present invention is to provide a color picture tube that does not require a press die or a press for producing a shadow mask.

[0007]

In order to achieve the above object, the structure of the color picture tube according to the present invention comprises a face panel having a phosphor screen surface formed on the inner surface thereof and a rear face panel connected to the face panel. A funnel, an electron gun built in the neck portion of the funnel, and a plurality of through holes for passing an electron beam from the electron gun,
A color picture tube having a shadow mask arranged at a predetermined distance from the phosphor screen surface, wherein the shadow mask is made of Invar material,
By electron beam movement due to thermal expansion of the window mask
The shadow mask so that the color unevenness is at a level where there is no problem
The tension to be applied to is 1-2 kg / mm ² , and
Further equipped with a frame to attach the shadow mask, in front
When the shadow mask is applied with a predetermined tension,
It is characterized by being suspended in the room . According to the structure of the color picture tube, it is possible to reduce the weight of the color picture tube itself, the easy design. In addition, since the tension applied to the shadow mask can be small, a large stretcher unlike the conventional one is not required. Further, it can be easily manufactured without using a press die or a press machine as in the case of a press mask.

[0008]

[0009]

[0010]

[0011]

Further, in the structure of the color picture tube of the present invention, it is preferable that a frame for mounting a shadow mask is further provided, and the frame is provided with a means for generating a cross tension.

Further, in the structure of the color picture tube of the present invention, it is preferable that the shadow mask has a planar shape. Further, in the configuration of the color picture tube of the present invention, it is preferable that the shadow mask has a curved shape along the major axis or the minor axis thereof.

Further, in the structure of the color picture tube of the present invention, it is preferable that the inner and outer surfaces of the face panel are flat. Further, in the structure of the color picture tube of the present invention, it is preferable that the inner and outer surfaces of the face panel are curved surfaces.

Further, in the structure of the color picture tube of the present invention, it is preferable that the inner and outer surfaces of the face panel are curved along the major axis or the minor axis thereof. Further, in the configuration of the color picture tube of the present invention, it is preferable that the outer surface of the face panel is a flat surface and the inner surface of the face panel is a curved surface.

Further, in the structure of the color picture tube of the present invention, it is preferable that the outer surface of the face panel is a flat surface and the inner surface of the face panel is curved along the major axis or the minor axis thereof.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail below with reference to embodiments. 1 is a side sectional view showing a color picture tube according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a color selection electrode device for a color picture tube according to an embodiment of the present invention.

As shown in FIG. 1, a color picture tube 1 according to this embodiment includes a glass face panel 2 having inner and outer curved surfaces, and a glass funnel 3 connected to the rear of the face panel 2. An electron gun 5 for emitting an electron beam 4 which is built in the neck portion 3 a of the funnel 3. In addition, an electron beam 4 emitted from an electron gun 5 is provided on the outer peripheral surface of the funnel 3 of the color picture tube 1.
A deflection yoke 6 for deflecting the beam is attached. The face panel 2 is coated with phosphor dots of three colors on its inner surface, thereby forming a phosphor screen surface 2a. A shadow mask 7 is arranged near the inner surface (phosphor screen surface 2a) of the face panel 2 substantially in parallel with the phosphor screen surface 2a.

As shown in FIGS. 1 and 2, the shadow mask 7 has a large number of through holes 8 which are regularly arranged, and colors the three electron beams 4 emitted from the electron gun 5. Play the role of selection. Inside the face panel 2, a pair of upper and lower mask support frames 9 having an L-shaped cross section is arranged, and the front surface of the pair of mask support frames 9 (the thin surface on the side of the phosphor screen 2a) has a predetermined shape. With a radius of curvature of, it projects in an arc shape toward the phosphor screen surface 2a side. The upper and lower ends of the shadow mask 7 are welded to the arcuate surfaces of the pair of mask support frames 9, whereby the shadow mask 7 is attached to the mask support frame 9 while being curved along its major axis. It is fixed. Spring members 10 are provided on both sides of the pair of mask support frames 9 so that a predetermined tension can be applied to the shadow mask 7 in the vertical direction via the pair of mask support frames 9. ing.

When the electron beam 5 is emitted from the electron gun 5 while the color picture tube 1 is operating, about 80% of the electron beam 4 strikes the shadow mask 7 and is absorbed, and the surface of the shadow mask 7 is absorbed. The temperature reaches 80-100 ° C. Then, the shadow mask 7 thermally expands due to this temperature rise, and the through holes 8 of the shadow mask 7 are displaced,
Phosphor screen surface 2a of electron beam 4 passing therethrough
The upper position also changes. As a result, the electron beam 4 does not correctly hit the phosphor dots on the phosphor screen surface 2a, and color unevenness occurs. For this reason,
The shadow masks other than the press mask are tensioned more than the thermal expansion force due to the temperature rise, and even if the shadow mask temperature rises, the through holes of the shadow mask and the phosphor on the screen surface The mutual position of the dots is prevented from shifting. However, in such a structure in which the tension greater than the thermal expansion force due to the temperature rise is applied to the shadow mask, a heavy and strong mask support frame is required, which increases the weight of the color picture tube itself. At the same time, a large stretcher is required.

Therefore, the inventor of the present invention intends to reduce the amount of movement of the electron beam on the phosphor screen surface due to the thermal expansion of the shadow mask due to the absorption of the electron beam and the influence on the color unevenness due to the movement of the electron beam. The present invention was carried out by studying the relationship between the tension and the tension to be applied to the shadow mask, and found the range of the tension at which the color unevenness is at a level at which there is no practical problem.

Below, the electrons on the screen of the phosphor are shown.
The amount of movement of the beam and the uneven color due to the movement of the electron beam
Tens to be applied to the shadow mask to reduce the effect.
The shadow mass of this embodiment.
(Mask that is curved along the long axis) 7
It In this case, the shadow mask 7 has
Tension is applied (see FIG. 6C). Now
When not applying tension to the shadow mask 7 of
Screen of phosphor due to thermal expansion of window mask 7
Let a (μm) be the amount of movement of the electron beam 4 on 2a.
It Next, the tension applied to this shadow mask 7
On the phosphor screen surface 2a
The value when the amount of movement of the electron beam 4 becomes zero is A (k
g / mm ²). Conventional flat mask and cylinder
In the case of lycal mask, this A (kg / mm²)Than
There was also a great tension (this state
It is said to be in the tension state. Put on shadow mask 7
A tension of A (kg / mm²) Less than
Then, the electron beam 4 moves on the phosphor screen surface 2a.
Although it moves to some extent, unevenness in color does not pose a problem for practical use.
If it is a bell, there is no problem.

The present inventor has found that the invar material (coefficient of thermal expansion: 9
× 10 ⁻⁷ ), iron material (coefficient of thermal expansion: 118 × 10 ⁻⁷ ), and the like made shadow mask 7 (thickness: 0.25 m
m, radius of curvature: 7000 mm), the relationship between the amount of movement of the electron beam 4 on the phosphor screen surface 2a and the tension to be applied to the shadow mask 7 was examined, and the heat of the shadow mask 7 due to absorption of the electron beam 4 was examined. The shadow mask 7 is tensioned so as to have a tension of 5 to 90% with respect to the tension (tension A in the full tension state) when the electron beam 4 does not move on the phosphor screen surface 2a due to the expansion. It was confirmed that the color unevenness was at a practically acceptable level when applied. At this time, the tension with respect to the shadow mask 7 made of Invar material is 0.3 to 2.8 (kg / mm ² ).

Thus, the movement of the electron beam 4 is completely
Tensile strength of 5 to 90% against the tension when it does not occur
Ten to be applied to the shadow mask 7 so that
If the option is set, the
Phosphor screen 2 due to thermal expansion of dough mask 7
The amount of movement of the electron beam 4 on a is determined by the shadow mask.
10 to 90% of the case where no tension is applied to 7,
Color unevenness is at a level that is not a problem for practical use
Then, the mask support frame 9 for stretching the shadow mask 7
A light one with low strength can be used as.
As a result, the weight of the color picture tube 1 itself can be reduced.
And the design becomes easy. Also a shadow mask
Since the tension applied to 7 is small, it is large as in the past.
You don't need a stretcher. In case of press mask
Easy to make without the use of such press dies and presses
Can be manufactured. Furthermore, the inventor
4 caused by thermal expansion of the shadow mask 7 due to absorption of
The movement of the electron beam 4 on the optical screen surface 2a
40-6 against the tension when it does not occur at all
The shadow mask 7 is tensioned so that the tension becomes 0%.
If the color is applied, color unevenness can be further suppressed.
Was confirmed. Made of Invar material at this time
The tension for the shadow mask 7 is 1-2 (kg /
mm²), And for the shadow mask 7 made of iron material
The tension is 5 to 12 (kg / mm ²) Degree is preferred
Yes.

More preferably, the movement amount of the electron beam 4 on the phosphor screen surface 2a due to the thermal expansion of the shadow mask 7 due to the absorption of the electron beam 4 is 100 μ.
It is preferable to apply tension to the shadow mask 7 so that the pressure becomes m or less. Thus, the moving amount of the electron beam 4 is 1
If a tension of not more than 00 μm is applied, the occurrence of color unevenness does not pose a practical problem.

FIG. 3 shows the experimental results for the 32-inch color picture tube to which the shadow mask 7 made of Invar material is attached. In the present embodiment, the spring members 10 are provided on both sides of the pair of mask support frames 9 to generate a bridge tension on the mask support frames 9 to apply a tension to the shadow mask 7. However, the means for generating the frame tension on the mask support frame 9 is not necessarily limited to this. Further, the mask supporting frame 9 does not necessarily need to be provided with a means for generating a cross tension, and the shadow mask 7 may be welded to the mask supporting frame 9 under a predetermined tension.

Further, in the present embodiment, the shadow mask 7 having a shape curved along the long axis is described as an example, but the shadow mask 7 is not necessarily limited to the case of this configuration. Instead, the present invention can be applied to the case of a shadow mask curved along the minor axis or a planar shape shadow mask. In this case, it is necessary to apply tension along the long axis to the shadow mask curved along the short axis, and to apply tension along at least one axis to the flat shape shadow mask. Need to call.

Further, in the present embodiment, the shadow mask 7 is paired by welding the upper and lower ends of the shadow mask 7 to the front surfaces of the pair of mask support frames 9 (thin surfaces on the phosphor screen surface 2a side). Although it is fixed to the mask support frame 9 of No. 1, it is not necessarily limited to this configuration. For example, as shown in FIG. 4, the upper and lower edges of the shadow mask 7 are bent to form a skirt portion,
A pair of mask support frames 9 may be fitted inside the skirt portion.

Further, in this embodiment, the color picture tube 1 is provided with the face panel 2 whose inner and outer surfaces are curved surfaces.
However, the present invention is not necessarily limited to the color picture tube 1 including the face panel 2 having this configuration. As the face panel, those whose inner and outer surfaces are flat, those whose outer surface is flat and whose inner surface is curved or curved along a long axis or a short axis, and whose inner and outer surfaces are curved along a long axis or a short axis Various shapes such as ones can be used.

[0030]

As described above, according to the present invention,
The amount of movement of the electron beam on the phosphor screen surface due to the thermal expansion of the shadow mask due to the absorption of the electron beam is at a level at which color unevenness is not a practical problem. As a result, a light frame with low strength can be used as a frame to stretch the shadow mask.
In addition to being able to reduce the weight of the color picture tube itself,
Design becomes easy. Furthermore, since the tension applied to the shadow mask can be small, a large stretcher unlike the conventional one is not required. Further, it can be manufactured without using a press die or a press machine as in the case of a press mask.

[Brief description of drawings]

FIG. 1 is a side sectional view showing a color picture tube according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a color selection electrode device for a color picture tube according to the embodiment of the present invention.

FIG. 3 is a diagram showing a relationship between a moving amount of an electron beam on a phosphor screen surface and a tension to be applied to a shadow mask in the embodiment of the present invention.

FIG. 4 is a cross-sectional view showing another example of the method of attaching the shadow mask according to the embodiment of the present invention.

FIG. 5 is a side sectional view showing a color picture tube in the related art.

FIG. 6 is a perspective view showing a color selection electrode device in the related art.

[Explanation of symbols]

1 color picture tube 2 face panel 2a Phosphor screen surface 3 funnel 4 electron beam 5 electron gun 7 Shadow mask 8 through holes 9 Mask support frame 10 Spring member

Claims (9)

(57) [Claims] 1. A face panel having a phosphor screen surface formed on an inner surface thereof, a funnel connected to the rear of the face panel, an electron gun built in a neck portion of the funnel, and an electron from the electron gun. A color picture tube having a plurality of through holes for allowing a beam to pass therethrough, and comprising the phosphor screen surface and a shadow mask arranged at a predetermined interval, wherein the shadow mask is an invar material. Consisting of the shad
Discoloration due to electron beam movement due to thermal expansion of mask
Are added to the shadow mask so that
The tension to obtain the shadow mask is 1 to ² kg / mm ² , and a frame for mounting the shadow mask is further provided.
The shadow mask with the specified tension applied.
A color picture tube characterized by being mounted on a frame . 2. A frame is provided with a means for generating a frame tension.
The color picture tube according to claim 1, wherein the color picture tube is provided . 3. The color picture tube according to claim 1, wherein the shadow mask has a planar shape . 4. The shadow mask is aligned with its long axis or short axis.
The color picture tube according to claim 1, wherein the color picture tube has a curved shape . 5. A color cathode ray tube according to claim 1 the inner and outer surface of the face panel is Ru plane der. 6. The color picture tube according to claim 1 the inner and outer surface of the face panel is Ru curved der. 7. The inner and outer surfaces of the face panel have their major axes or
The color picture tube according to claim 1 that are curved along the short axis. 8. The front surface of the face panel is flat,
The color picture tube according to claim 1, wherein the inner surface of the face panel is a curved surface . 9. an outer surface of the face panel is flat, before
The inner surface of the face panel is gulfed along its major or minor axis.
The color picture tube according to claim 1, which is curved.